KR20180032794A - Heating system with exchangeable structure of woven heating module - Google Patents

Abstract

The present invention relates to a heating system capable of replacing a fabric heating element module. According to the present invention, a main body having a power supply line is divided into a plurality of module fastening areas, and the fabric heating element module is attachable/detachable in each module fastening area. By doing so, if a portion fails, a user can replace only the module. Even if the module is differently designed in consideration of characteristics of a direct current and an alternating current, it is possible to apply both a direct current module and an alternating current module in one body by designing a power connection port considering a common power connection position.

Description

[0001] The present invention relates to a heating system with a replaceable structure for woven heating module,

The present invention relates to a heating system using a fabric heating element, and more specifically, by fabricating a fabric heating element having a predetermined area as a module and detachably attaching the fabric, a problematic portion can be replaced or both DC and AC power can be used It is about the technology to make.

The conventional heating system or heating system used in the conventional heating system can be an ondol system, a hot water circulation system, or an electric heater system. However, due to various problems such as installation difficulty, increase of maintenance cost, electromagnetic wave generation and indoor oxygen combustion There has been a growing demand for new methods of heating.

In order to improve the problems of the conventional heating system and to improve the power consumption efficiency, it is evaluated that it is beneficial to the human body through the sterilization, antibacterial and deodorizing functions as well as the heating function through the emission of far infrared ray (Or " weave heating body ") has been actively studied.

Fabric heating elements are fabricated by using plain yarn and carbon yarn, and heat is generated when power is supplied to the carbon yarn end. Techniques related to the fabric heating element include Korean Patent Laid-Open No. 10-2006-0111228 (October 26, 2006, "Weaving and weaving heater body").

When a fabric heating element is to be applied to a heating system, the fabric heating element may be manufactured to fit the heating space area.

However, there is a problem in that if a breakage or failure occurs in a part of the fabric, the entire area of the fabric heating element must be replaced. Also, depending on whether a DC power supply or an AC power supply is supplied, the fabrication method of the fabric heating element can not be changed. If the power supply is changed, the power supply line needs to be replaced.

Disclosure of the Invention The present invention has been devised to solve the problems of the prior art as described above, and it is an object of the present invention to provide a technique of making a fabric heat generating element as a module and detachably attaching to a main body having a power supply line, It has its purpose.

Another purpose is to provide a technique that allows both DC and AC fabric heaters to be installed through the same power supply line.

According to another aspect of the present invention, there is provided a heating system capable of replacing a fabric heating element module. The heating system includes a first power supply line and a plurality of first power supply connection ports, A main body having two power connection ports; A space between the first power supply line and the second power supply line of the main body is divided into a plurality of spaces in which the fabric heating element module is seated side by side, Wherein the first power supply line is provided at a position on the front side of the first power supply line side in each of the module fastening areas, and the second power supply line facing the first power supply line, And the second power connection port is provided at a position rearward of the line.

Here, the fabric heating element module may include a heating unit arranged to have a length from the front to the rear of the module fastening area when the fabric heating element module is seated in the module fastening area of the main body, And a first power supply line connected to the first power supply line, the first power supply line being connected to the first power supply line, the first power supply line being connected to the first power supply line, ; And a second power supply line connected to the second power supply connection port, the second power supply connection line being arranged to have a length in the left-right direction from the rear of the heat generating unit, And the like.

In addition, the fabric heating element module may include a heating unit arranged to have a length in the left-right direction of the module fastening area when the fabric heating element module is seated in the module fastening area of the main body, And a first power supply line connected to the first power supply line, wherein the first power supply line is connected to the first power supply line, and the first power supply line is connected to the first power supply line, ; And a second power supply line connected to the second power supply connection port and having a length in the forward and backward direction on the other side of the heat generating unit, And the like.

In the heating system according to the present invention, the body having the power supply line is divided into a plurality of module fastening areas, and the power connection ports are positioned in the respective module fastening areas, so that the fabric heat generating module, As a result, if a part fails, only the corresponding module can be replaced, which is easy to maintain.

Further, by providing the positional characteristic of the power source connection port, it is possible to apply both the DC or AC fabric heat generating module. That is, since the direct-current power source does not have a high voltage, the length of the heat-generating portion d is relatively short and the AC power source has a relatively high voltage. Therefore, the length of the heat-generating portion a must be made long. And the direction of arrangement is also different.

That is, when direct current and alternating current fabric heat generating elements are to be applied to a module body of the same size, the direct heat generating portion d is arranged corresponding to a short side length of the side length of the module body d, So that the conductive part d should be disposed. On the contrary, the heat generating portion a for alternating current should be disposed corresponding to the long side length of the side length of the module body a, and the conductive portion a should be arranged corresponding to the short side length.

In the present invention, power can be supplied from the front left side, which is the point where the first conductive portion d in the transverse direction and the first conductive portion a in the vertical direction are commonly passed, The first power supply connection port and the first power supply connection port are located so that the second power supply connection port and the second power supply connection port are connected to each other so that power can be supplied from the rear right side, It is possible to install both DC and AC fabric heat generating element modules in the same main body.

Therefore, when the power supply system is changed, there is no need to replace the power supply line, which is advantageous in that construction is very convenient.

1 is a schematic perspective view for explaining a main body and a fabric heating element module in a heating system according to an embodiment of the present invention;
2 is a view for explaining a power supply line and a power connection port of the main body in the heating system shown in Fig.
FIG. 3 is a view for explaining a principle of supplying power when a direct current fabrication heater module is installed in a main body in the heating system shown in FIG. 1; FIG.
FIG. 4 is a view for explaining a principle of supplying power when an AC fabric heat generating element module is installed in a main body in the heating system shown in FIG. 1; FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, some configurations which are not related to the gist of the present invention may be omitted or compressed, but the configurations omitted are not necessarily those not necessary in the present invention, and they may be combined by a person having ordinary skill in the art to which the present invention belongs. .

FIG. 1 is a schematic perspective view for explaining a main body and a fabric heating element module in a heating system according to an embodiment of the present invention. FIG. 2 is a perspective view illustrating a power supply line and a power connection port of the main body in the heating system shown in FIG. FIG. As shown in FIGS. 1 and 2, the heating system in the embodiment of the present invention includes a heating regulator 20, a main body 30, and a fabric heating element module 40, 50.

The heating regulator 20 is provided to receive power from the power supply unit 10 and supply the power to the power supply lines 31 and 33 of the main body 30. The heating regulator 20 supplies and blocks power through the heating regulator 20, Temperature control and so on. Here, the power supply unit 10 can supply DC or AC power, and a detailed description will be given below.

The main body 30 is formed to have a size corresponding to the area of the space requiring heating and is divided into a plurality of module engaging regions A1 to A6 so that the fabric heating element modules 40 and 50 can be seated side by side. The main body 30 is provided with a first power supply line 31 on one side and a second power supply line 33 on the opposite side so as to supply power to the fabric heating element modules 30 and 40.

The power supply lines 31 and 33 are provided with power connection ports 32 and 34 so that power connection portions 44, 46, 54 and 56 of the fabricating heater module 40 and 50 can be connected. Here, the power connection ports 32 and 34 have specific positions such that they can correspond to both the direct current fabrication heater module d 40 and the alternating current fabrication heater module a 50. A plurality of module fastening areas A1 to A6 are provided in which the space between the first power supply line 31 and the second power supply line 33 of the main body 30 is seated in parallel with the fabric heating element modules 40, A first power supply connection port 32 is provided at one point on the front side (upper side in FIG. 2) of the first power supply line 31 side in each of the module fastening areas A1 to A6, On the power supply line 33 side, a second power supply connection port 34 is provided at a rear portion (lower side in FIG. 2) one point. Accordingly, both the direct current fabrication heater module d (40) and the alternating current fabrication heater module a (50) can be used. The reason will be explained with reference to FIG. 3 and FIG.

FIG. 3 is a view for explaining the power supply structure when the direct current fabrication heater module d is installed in each module fastening area of the main body in the heating system shown in FIG. 1 and FIG.

The fabric heating element module d 40 includes a module body d 41, a heating portion d 42, a first conductive portion d 43, a first power connection portion d 44, a second conductive portion d 45, 2 power connection d (46). Here, 'd' after each component name is for distinguishing from the same component name of the AC fabric heat generating element module a (50) and has no special meaning. Further, the fabric heating element module d (40) may further include a woven portion woven in a plain warp, or a separate cover, but it is not shown in the drawings.

The module main body d 41 is manufactured corresponding to the size of the module fastening areas A1 to A6 of the main body 30 and the power connecting portions d and 44 are provided on the side surfaces thereof. Here, the power connection portions d and 44 are provided at positions corresponding to the positions of the power connection ports 32 and 34 provided in the main body 30.

1 and 3, the first power connection d 44 is provided at the front left of the module fastening areas A1 to A6 so as to be able to connect to the first power connection port 32, and the second power connection d (46) are provided on the rear right side of the module fastening sections (A1 to A6) so as to be able to connect with the second power source connection port (34).

The heat generating part d (42) is made of carbon yarn and generates heat when power is supplied. Here, since the voltage is not high when DC power is supplied, the length of the heat generating portion d 42 is made short. That is, in the direct current fabrication heater module d 40, the heat generating portion d 42 is arranged so as to have a length in the front and rear direction, and corresponding to the length in the direction perpendicular to the front and rear of the heat generating portion d 42 And conductive portions d (43, 45) are provided.

That is, the first conductive part d (43) is arranged so as to have a length in the left-right direction in front of the heat-generating part d (42) and has a first power supply connection part d (44) connected to the first power supply connection port It is connected. Accordingly, the first conductive part d 43 can receive the first power from the first power supply line 31.

The second conductive portion d 45 is connected to the second power connection portion d 46, which is arranged so as to have a length in the left-right direction from the rear of the heat generating portion d 42 and whose one right point is connected to the second power connection port 34 . Therefore, the second conductive part d 45 can receive the second power from the second power supply line 33.

After the fabric heating element module d 40 is installed in the module fastening areas A1 to A6 of the main body 30, the power supply connecting parts d and 44 are connected to the power connection ports 32 and 34, The heating unit d 42 generates heat and the heating is performed.

FIG. 4 is a view for explaining the power supply structure when the AC fabrics heating element module a is installed in each module fastening area of the main body in the heating system shown in FIG. 1 and FIG.

The fabric heating element module a 50 includes the module body a 51, the heating portion a 52, the first conductive portion a 53, the first power connection portion a 54, the second conductive portion a 55, 2 power connection part a (56).

A power connection portion a (54, 56) is provided on a side surface of the module main body (51). 1 and 4, the first power connection part a 54 is provided on the front left side of the module fastening areas A1 to A6 so as to be able to connect with the first power connection port 32, and the second power connection part a (56) are provided on the rear right side of the module fastening sections (A1 to A6) so as to be able to connect with the second power source connection port (34).

The heating part a (52) is made of carbon yarn and generates heat when power is supplied. Since the voltage is high when AC power is supplied, the heating part a (52) must be made relatively long. That is, in the alternating current-use fabric heating element module a 50, the heat generating portion a 52 is arranged so as to have a length in the left-right direction and the length is arranged in a direction perpendicular to the left and right sides of the heat generating portion a 52 A conductive portion a (53, 55) is provided.

That is, the first conductive part a (53) is arranged so as to have a length in the front-rear direction at the left side of the heat-generating part a 52 and has a first power connection part a (54) connected to the first power connection port (32) It is connected. Therefore, the first conductive part a 53 can receive the first power from the first power supply line 31. [

The second conductive portion a 55 is connected to the second power connection portion a 56, which is arranged to have a length in the front-rear direction on the right side of the heat generating portion a 52 and whose rear point is connected to the second power source connection port 34 . Therefore, the second conductive portion a 55 can receive the second power from the second power supply line 33. [

After the fabric heating element module a 50 is installed in the module clamping areas A1 to A6 of the main body 30, the power supply connecting parts a and 54 are connected to the power supply connecting ports 32 and 34, The heating unit a 52 generates heat to be heated by supplying the AC power supplied from the power supply unit 10 through the heating unit a.

As described above in detail, in the heating system according to the present invention, the main body 30 having the power supply lines 31 and 33 is divided into a plurality of module fastening areas A1 to A6, and each module fastening area A1 The fabric heat generating element modules 40 and 50 manufactured to have sizes corresponding to the module fastening areas A1 to A6 can be attached and detached by locating the power supply connection ports 32 and 34 in the modules A to A6, Can be replaced, easy to maintain.

Further, by providing the positional characteristics of the power source connection ports 32 and 34, the DC or AC fabric heat generating module modules 40 and 50 can all be used. That is, since the direct-current power source is not high in voltage, the length of the heat-generating portion d 42 is relatively short, and the length of the heat-generating portion a 52 must be made long because the AC power source has a relatively high voltage. The lengths and arrangement directions of the conductive parts 43, 45, 53, and 55 in the fabric heating element modules 40 and 50 also differ.

That is, when direct current and alternating current fabric heat generating elements are to be applied to the module bodies 41 and 51 of the same size, the direct current heat generating portion d 42 corresponds to the shorter side length of the module body d 41 And accordingly, the conductive parts d (43, 45) must be disposed corresponding to the long side lengths. Conversely, the AC heat generating portion a (52) should be disposed corresponding to the long side length of the side length of the module main body (51), and the conductive portions a and 53 should be arranged corresponding to the short side length.

In the present invention, the first conductive part d 43 in the transverse direction and the first conductive part a 53 in the longitudinal direction are connected to the conductive parts 43, 45, 53, The first power supply connection port 32 and the first power supply connections 44 and 54 are positioned so that power can be supplied from the front left side, By placing the second power supply connection port 34 and the second power supply connection 54 and 56 such that power can be supplied from the rear right side where the part a 55 is commonly passed, It is possible to install all of the AC heating fabricator heating modules 40 and 50.

Therefore, when the power supply system is changed, there is no need to replace the power supply line, which is advantageous in that construction is very convenient.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And additions should be considered as falling within the scope of the claims of the present invention.

10: Power supply
20: Heating regulator
30: Body
31: first power supply line
32: first power connection port
33: second power supply line
34: second power connection port
A1 to A6: First to sixth module fastening areas
40: fabric heating element module d
41: Module body d
42: heat generating part d
43: first conductive part d
44: first power connection d
45: second conductive part d
46: second power connection d
50: Fabric heating element module a
51: Module body a
52: heat generating part a
53: first conductive part a
54: first power connection part a
55: second conductive part a
56: second power connection part a

Claims (3)

A main body having a first power supply line and a plurality of first power supply connection ports on one side and a second power supply line and a plurality of second power supply connection ports on the other side; And
And a plurality of fabric heating element modules detachably coupled to the main body to generate heat,
Wherein a space between the first power supply line and the second power supply line of the main body is divided into a plurality of module fastening areas in which the fabric heating element module is seated side by side, Wherein the first power connection port is provided at a front portion of the first power supply line and the second power connection port is provided at a point of a rear portion of the second power supply line facing the first power supply line. Replaceable heating system.
The method according to claim 1,
The fabric heating element module comprises:
A heat generating unit arranged to have a length from the front to the rear of the module fastening area when the fabric heating element module is seated in the module fastening area of the main body,
And a first power supply line connected to the first power supply line, the first power supply line being connected to the first power supply line, the first power supply line being connected to the first power supply line, ; And
And a second power supply line connected to the second power supply connection port, the second power supply line being connected to the first power supply line and the second power supply line, And a heat exchanger for heating the heat exchanger.
The method according to claim 1,
The fabric heating element module comprises:
A heating unit arranged to have a length in a lateral direction of the module fastening area when the fabric heating element module is seated in the module fastening area of the main body,
A first power supply line connected to the first power supply line and having one end connected to the first power supply line, the first power supply line being connected to the first power supply line, ; And
And a second power supply line connected to the second power supply connection port, the second power supply line being connected to the second power supply line, the second power supply line being connected to the second power supply line, And a heat exchanger for heating the heat exchanger.

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